DE2420813A1 - PHOTO FLASH - Google Patents

Description

Dr. rer. not. Horst pupil PATENT ADVOCATE

Frankfurt / Main 1, April 29, 1974 Niddastraße 52 Vo. / hey

Telephone (0611) 237220 Telex: 04-16759 mapat d Postal check account: 282420-602 Frankfurt / M. Bank account! 225/0389 Deutsche Bank AG, Frankfurt / M.

2722-LD-58IO

GENERAL ELECTRIC COMPANY

1 RIVER ROAD SCHENECTADY, N.Y./U.S.A.

Pot whether 111 ζ lamp

The invention relates to Potoblitζlampen in which two Lead-in conductor an "ignition wire or other electrical ignition means on the inside of a piston stretcher that is flammable Material such as crushed metal foil, and often a combustion assisting gas such as Oxygen.

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When such a flash lamp is flashed, the crushed one burns Metal foil in an oxygen atmosphere and generated an intense flash of light accompanied by intense heat that burns back the lead-in ladder. Occasionally remain certain metal residues in a flashed lamp and tend to create a bridge over the burned back entry ladders forming an electrically shorted flashed flash lamp. Furthermore, the burned back - Introductory ladder occasionally deformed and / or melted and connect to each other, thereby forming a direct short circuit between the lead-in conductors. This Short circuit is undesirable because it shorts the battery or up to the removal of the flash lamp from the circuit represents another source of power. With many flash circuits this problem occurs more intensely, since these are one for a fast connection and disconnection synchronizing switch have, which after closing to conduct current through the ignition thread for flashing a flash lamp, immediately reopens to represent an open circuit after flashing even if the flashed lamp is shorted can. Such switching arrangements are usually used for flashing individual and the four flash lamps of a flash cube.

Also, ready electronic ignition circuits have been developed using transistors for sequentially flashing one flash lamp at a time of a plurality of flash lamps in the form of a multiple flash array. All lamps on the front of the array are flashed without moving or rotating the array. An example of such a multiple flash arrangement with five flash lamps on each side is described in U.S. Patents 3,598,984 and 3,598,985. An example of an electronic ignition circuit for a multiple flash arrangement is described in U.S. Patent 3,676,045. The circuit arrangement basically works in such a way that flashlamps are ignited in sequence, with an idling state

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flashed flash lamps are bypassed and an ignition pulse is sent to the first flashlamp is applied in the array having a proper filament resistance that is a small value of, for example, 0.6 ohms. An "idle" flashed lamp usually has in comparison a resistance between their lead-in conductors of a few hundred ohms or more. If a lamp has a "short-circuited" Lamp is, as it 'has been described above, and a small resistance of, for example, a few ohms or has less, the circuit arrangement then carries out each subsequent ignition pulse of the short-circuited flashed lamp so that no more good flash lamps that are in the circuit can be flashed. Thus, the requirement for a flash lamp structure clearly, which ensures an idle after flashing.

One of the tasks underlying the invention is therefore to create improved flashlights that are idle after flashing.

In short, according to the present invention, a flash lamp created which has two lead-in wires protruding into a piston, the combustible metal and one the combustion containing supporting gas via the insertion wires inside the bulb is an ignition wire or other lightning trigger arranged. According to the invention is a sleeve, for example made of glass or some other electrical and thermal Insulation means around one of the lead-in conductors provided near the ignition thread, so that the second lead-in conductor of the combustion heat of the flashing lamp on one longer distance, starting from the ignition thread or another ignition device, is more exposed than the one provided with the sleeve Introductory Leader. When the lamp is flashed, it burns the non-sleeved lead-in ladder farther back than the sleeved lead-in lead, where-

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by a relatively large electrical path between the exposed ones Part of the ζuriickburned introductory ladder brought about and reducing the likelihood that the lead-in ladder will either be in direct contact or be short-circuited by metal particles in the flashed lamp. The insulating device according to the invention fulfills several functions: it causes an uneven burn-back of the lead-in ladder during flashing and then acts they act as an electrical insulator between the burned back lead-in conductors to allow for great separation between their exposed ones Ends and it prevents the burned-back lead-in conductors from being directly shorted to one another.

The invention will now be based on further features and advantages the following description and the accompanying drawing of an exemplary embodiment.

Fig. 1 is a perspective view of a photoflash lamp in accordance with the preferred embodiment of the invention.

Figure 2 is a perspective view of the fuse attachment the lamp according to FIG. 1 before the flashing of the lamp.

3 is a perspective view of the attachment according to FIG Fig. 2 and shows its state after the flash lamp has flashed.

FIG. K shows a known ignition thread fastening corresponding to the views shown in FIGS. 2 and 3 and shows the state of the lamp after flashing.

The lamp shown in Fig. 1 is essentially the same as that described in Fig. 5 of U.S. Patent 3,506,385. she

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comprises a tubular envelope 11, which is preferably made of a borosilicate glass or other suitable vitreous material, with a nozzle compression seal 12 at its one end, through which two conductor wires 13, I ¹ * from the outside to the inside of the piston 11 in a parallel, Pass through the spaced-apart arrangement. A ball or bead 16 of glass or other suitable vitreous material secures the lead-in portions 17 and 18 of the conductors 13 and 14 spaced from one another within the piston 11, and an ignition wire 19 coated with a suitable ignition material is passed through near its ends the ends 21 and 22 of the lead-in conductors 17 and 18 at a certain distance above the ball or bead

16 held. Alternatively, the ignition material can be passed over the lead-in conductor ends 21 and 22 may be applied to the ignition wire 19 instead of or in addition to the coating.

The piston 11 is with a loose mass of thread-like or crushed metal wire or metal foil 23 essentially filled, made of zirconium or hafnium or some other suitable combustible metal can exist. The air is pumped out of the flask 11 and the flask is then filled with oxygen filled with a pressure of at least several atmospheres, such as about 5 to 10 atmospheres. The piston will then sealed at the end opposite the nozzle press seal 12 at a pump-off tip 24. The flash lamp can be used with the ordinary varnish or a plastic protective coating.

According to the present invention, one is the lead-in ladder

17 provided with an electrical and thermal insulating means 26, which extend from the ball or bead 16 to near the end 21 to which the ignition thread 19 is attached. Preferably the insulating means 26 is a sleeve made of glass or some other glass-like material that the lead-in 17 into

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the position shown, and the lower end of the sleeve 26 is preferably attached to the ball or bead 16. This can be done, for example, by a sealing connection under the action of heat or done in that the lower end of the sleeve in a recess in the ball or in the pearl 16 a seat forms. Alternatively, the sleeve 26 can rest on the upper surface of the bead 16 and through the surrounding and enveloping one Mass of combustible material 23 be held in place. In the last-described arrangement, however, there is a certain risk that the ignition wire 19 is damaged by the raw handling of the lamp, which can lead to the fact that the sleeve hits the combustible metal mass 23, which in turn against can strike the ignition wire 19 and break it. The insulating part 26 can instead of the described glass sleeve in the Form of a glass or other insulating material on and around the lead-in conductor in the shown Position is applied. In the case of a lamp structure which does not have a ball or bead 16, the insulating part 26 can move to lead down and against or in a seal with the underside 27 of the inner piston surface next to the lead-in conductor 17, as indicated by reference numeral 27. Alternatively, the insulating part 26 instead of on the lead-in conductor 17, such as it is shown in the drawing, of course, can also be arranged on the other lead-in conductor 18. Farther According to the present invention, parts 26 of different lengths or configurations can also be provided on both insertion ladders 17 and 18.

FIG. 2 clearly shows the relationship between the insulating part 26 and the glass bead 16, the lead-in conductors 17 and 18 and the ignition filament 19 before the lamp has been flashed. Figure 3 shows how after flashing the flash lamp of the Ignition filament 19 has been consumed, the upper end of the lead-in conductor 17 to a point at or near the top

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of the insulating part 26 has been brought back, as indicated by reference numeral 28, and the other (non-isolated) Lead-in ladder 18 to a point at or near the top of bead 16 is burned back, as indicated by reference numeral 29, the burned back conductor being usually has the shape of a bead. Thus, the exposed burned back ends are. 28 and 29 of the introductory ladder asymmetrically (vertically) offset from each other and are borrowed from each other farther apart than would be the case with the same lamp without the insulating part 26, so that between them a creates a longer electrical path and reduces the likelihood of a shorted lamp. For example In a typical flashlight with an insulator, the distance between the burned-back lead-in conductors is 4.75 mm (3/16 inch) or more, while in a The lamp without the insulator is about 1.6 mm (1/16 inch) or less. As shown in Fig. 4, the burned back burns Ends 28 and 29 of lead-in conductors 17, 18 of a known lamp both back by approximately the same amount, and thus, there is a high probability that in some lamps the burned back ends 28 and 29 will have spheres or perhaps even form a single combined sphere or be bent and deformed towards each other because of the Heat of combustion when the flash lamp flashes. Thus, a short circuit tends to be caused either by direct connection the introductory parent or is formed by it is more likely that unburned metal particles in the flashed lamp will bridge the gap between the conductors and cause a short circuit. In contrast, a flashed lamp according to the invention, as shown in FIG shown, actually ensures that no short circuit due to direct electrical contact between the burned back Lead-in ladders can occur, and due to the greater spacing and longer electrical path between the exposed ends 28 and 29 of the burned back introducer

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head there is a much smaller chance of unburned Metal particles in the lamp create a short-circuit contact between the conductors. Furthermore, it was found that the longitudinal (vertical) offset spacing between the burned back conductors 28 and 29 of the lead-in ladder helps prevent unburned metal particles form a short-circuit bridge in between. The size and material of the sleeve 26 must be such that it can withstand the heat of combustion resists when the flash lamp flashes.

In the structure shown in Fig. 1, the diameter of the support ball is 16 sufficiently large in relation to the inner diameter of the piston 11 and it is sufficiently close to the lower one Nipple compression seal '12 of the piston so that there is a very small chance of any unused metal particles around the ball 16 in a flashed lamp fall down and short-circuit contact between the lead-in ladders 17 and 18 below the ball 16 form.

In accordance with the present invention, there is provided a flashlamp assembly which which after the flash does not cause a short circuit but rather an open circuit. For example, one regular commercial production of several million flashlamps according to the invention, extensive tests which showed that the likelihood of short-circuited flash lamps occurring after flashing was only about one lamp more than 10,000 flashed lamps.

The invention can also be particularly useful in preventing flashlamp insertion leads from being direct that do not contain any metallic combustible material. Furthermore, the electrical insulating means 26 can also be semi-cylindrical or have some other shape, with it is then arranged in a similar manner between the entry ladders and along and next to one of the entry ladders or set against this 1st.

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Claims (9)

Expectations . ^ Photo flash lamp with a bulb, a pair of lead-in conductors which lead into the bulb substantially parallel and at a distance from one another, and a flash ignition device which is connected between the lead-in conductors within the bulb which contains combustible material which is ignited by the ignition device, characterized that an insulating device (26) is arranged between the lead-in conductors (17, 18) along and adjacent to at least a part of the length of one of the lead-in conductors, such that when the flash lamp flashes and the lead-in leads burn back, a longer electrical path between the Burned back lead-in ladders can be formed and a short circuit can be prevented. 2. Photo flash lamp according to claim 1, characterized in that that the insulating device (26) is a sleeve of insulating material, which around and along at least part of the length of one of the introductory ladder (17) between its entry point in the piston (11) and the ignition device (19) is arranged such that the second lead-in conductor (18) is on a larger lead from the ignition device (19) the outgoing section is more exposed to the heat of combustion during lightning than the first lead-in conductor (17), so that when the lamp flashes, the second lead-in conductor burns back further than the first lead-in conductor. 3 * Photo flash lamp according to claim 1, characterized in that shows that the combustible material is a loose metal mass (23) in thread-like form and the piston (11) contains a combustion-supporting gas .. 409847/0863 4. Photo flash lamp according to claim 1, characterized in that the ignition device (19) substantially is arranged laterally over the lead-in conductors (17, 18) and the insulating device (26) comprises a sleeve, disposed around and along a portion of an insertion ladder. 5. Photo flash lamp according to claims 1 and 2, characterized characterized in that 'the ignition device (19) is arranged essentially laterally above the lead-in ladders (17, 18). 6. Photo flash lamp according to Claims 1 and 2, characterized in that the holding means (16)
for the lead-in conductors (17, 18) made of vitreous material are provided, which are arranged within the piston (11)
and the lead-in conductors are surrounded and held in a position spaced from the ignition device (19), the sleeve (26) extending from the surface of the holding means (16) to a point near the ignition device (19). 7. Photo flash lamp according to Claims 1 and 2, characterized in that the gown for the holder
the sleeve (26) provided by .die holding means (16)
are. 8. Photo flash lamp according to claims 1 and 2, characterized in that the sleeve (26) with the
Holding means (16) is connected. 9. Photo flash lamp according to claims 6, 7, 8, characterized characterized in that the holding means are formed by a ball or bead (16) which is within the Piston is arranged. 409847/0863